後期 金曜日 3講時. 単位数/Credit(s): 2. 担当教員/Instructor : 若林 裕助. 学期/Semester: 後期. 開講年度/Year: 2024. 科目ナンバリング/Course code/number: SPH-CMP701.
Condensed Matter Experiment I
電子物理学特殊講義
Advanced Lecture on Physics of Electrons
In this course, students will understand the frontier of condensed matter physics. The lecture is given by more than ten professors in our Condensed Matter Physics group. They provide explanations of the recent progress in condensed matter physics, such as high-temperature superconductors, quantum magnets, topological insulators, and other quantum materials. The lecture is also expanded to the advanced experimental techniques such as angle-resolved photoemission spectroscopy, x-ray scattering, crystal growth, and so on.
In this course, students will understand the frontier of condensed matter physics. The lecture is given by more than ten professors in our Condensed Matter Physics group. They provide explanations of the recent progress in condensed matter physics, such as high-temperature superconductors, quantum magnets, topological insulators, and other quantum materials. The lecture is also expanded to the advanced experimental techniques such as angle-resolved photoemission spectroscopy, x-ray scattering, crystal growth, and so on.
This course is designed to help students understand various quantum states in condensed matter, and experimental techniques to investigate them.
This course is designed to help students understand various quantum states in condensed matter, and experimental techniques to investigate them.
Introduction
Electronic states of topological materials
Physics of organic semiconductor
High-field superconductivity
Kitaev spin liquids
Proton transfer assisted by phonons
physics of glass transition
Electronic states of iron-based high-temperature superconductors
BCS-BEC crossover in superconductivity
Material science of high-temperature superconductors
Physical science of atomic-layer materials
Interfaces of transition metal oxides
Google classroom is used for distribution of course materials.
Introduction
Electronic states of topological materials
Physics of organic semiconductor
High-field superconductivity
Kitaev spin liquids
Proton transfer assisted by phonons
physics of glass transition
Electronic states of iron-based high-temperature superconductors
BCS-BEC crossover in superconductivity
Material science of high-temperature superconductors
Physical science of atomic-layer materials
Interfaces of transition metal oxides
Google classroom is used for distribution of course materials.
Submitted reports and attendance are evaluated.
Submitted reports and attendance are evaluated.
No text book is used. References will be informed to the students in the lectures.
No text book is used. References will be informed to the students in the lectures.
Students are required to review.
Students are required to review.
Google classroom: class code mvxdzdv
Google classroom: class code mvxdzdv